harvester 0902
TRANSCRIPT
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Christoph Wll and Lotur r JnssonFebruary 2009
Productivity and cost analysisof a harvester operation in
Hallormsstaur, east Iceland
European Union
European Regional Development Fund
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AbstractDuring the next decades extension o orest area and tree growth let
the timber volume removable rom Icelandic orests during regular
thinnings and clear cuts increase dramatically. At the same time
actual removals stagnate at a low level. As technology improves
orestry operations become more mechanized and nowadays har-
vesters are used around the world to lower costs o thinnings. Thepossibility o using harvesters protably in Iceland was researched
by analysing two thinnings carried out by a harvester in Hal-
lormsstaur, east Iceland. Productivity and costs o mechanized
thinning were determined and compared with traditional motor
manual thinnings. For smaller tree sizes (0.1 m3) the harvester was
twice as expensive as a orest worker, or slightly bigger trees (0.2
m3 ) costs were equal (excluding transportation o the harvester).
The results were inuenced by the low costs assessed by the har-
vester operator and more importantly and acting reciprocally
his inexperience at the time. Comparisons with time studies rom
Austria showed that experienced operators are able to work several
times aster than the operator in this study did. Thus the use o a
harvester could become a viable alternative to motor manual ell-
ings. This argument is strengthened taking into account that the
harvester used during this study is a walking harvester specialized
or operations in dicult conditions such as steep gradients that
are rare in Icelandic orestry. Because o this we suggest a wheeled
harvester (aster) or a harvester attachment or a tractor/excavator
(cheaper) as noteworthy alternatives.
Christoph Wll. Forest science diploma rom the
Technical University in Dresden, Germany 2008,
started working or Skgr eh. in 2006.
[email protected] , phone: +354 4712135
Loftur Jnsson. Masters degree in orestry rom
the Agricultural University in As, Norway 2000.
From 2000 Mr. Jonsson worked or the Icelandic
Forestry Service and or regional aforestation
projects until 2004 when he ounded Skograd eh,
Icelands rst private consultant agency in the orestry sector. He
has been involved in several European and Nordic development
projects concerning orestry, biomass and energy.
[email protected] , phone: + 354 4712135
Contents0. Foreword .............................. ................................. ................................. ...................
31. Introduction ............................................................................................................
31.1. Forestry and harvesting in Iceland .........................................
31.2. Development o timber harvest in next decades .........
31.3. The harvester used in the thinning ................................ ........
42. Methods ....................................................................................................................
42.1. Thinned larch stands .......................................................................
42.2. Measurements ................................. ................................. ...................
53. Results ........................................................................................................................
63.1 Productivity ............................................................................................
6
3.2 Costs ...........................................................................................................6
4. Discussion ................................................................................................................7
4.1 Comparison o procuctivity ................................ .........................7
4.2 Comparison o costs ................................ ................................. ........8
4.3 Damages ..................................................................................................9
5. Epilogue ....................................................................................................................10
6. Reerences ................................................................................................................11
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0. Foreword This report is based on two thinnings conducted in Hal-
lormsstaur, east Iceland, by the orestry entrepreneur Gujn
Helgi lasson, owner o the rm Grni Drekinn eh (Green
Dragon Ltd). These two thinnings only constitute an early rag-
ment o his experience with the harvester and shall thereore
not be seen as nal judgement o his work. On the contrary it
is the authors wish that this report will be seen as a contribu-
tion or uture productivity analyses, e.g. that analyses in the
time to come will have another benchmark to compare their
results with.
1. Introduction1.1. Forestry and harvesting in Iceland
At the time o human settlement about 1140 years ago, birch
(Betula pubescens) orests and woodlands covered up to 40%
o Icelands land area (Wll, 2008). The settlers cut and burned
down the existing woodlands to create space or arming. Atercenturies o utilization or charcoal production and overgraz-
ing by domestic animals ollowed by ecosystem degradation
and soil erosion (Arnalds, 1987), orest cover was reduced to
about 1% in 1900 (Aradttir and Eysteinnsson, 2005). The Ice-
landic Forest Service (IFS) was established in 1908 in order to
protect the remaining orests and did so by acquiring several
o the remaining woodlands during the rst decades o the
20th century (Eysteinsson, 2009). In the second hal o the 20 th
century the ocus shited rom conservation to aorestation.
Between 500,000 and 1 million seedlings were planted annu-
ally by the IFS and orestry societies between 1950-1990 (Gun-narsson et al., 2005). Main species planted at the time were Pi-
cea abies, Picea sitchensis, Pinus sylvestris, Pinus contorta and
Larix sibirica. Ater 1990 seedling numbers increased. Today be-
tween ve and six million seedlings are planted annually being
tantamount to 1500 ha (personal estimation). At present the
main species are native Betula pubescens and Larix sukachewii
(both about 30 %) ollowed by Picea sitchensis, Pinus contorta
and Populus trichocarpa (Gunnarsson et al., 2005). The biggest
share o aorestation is carried out on private land and subsi-
dized by Regional Aorestation Projects.
The older plantation orests in Iceland, i.e. those due or second
or nal thinnings, are mostly publicly owned. Thinning and har-
vesting operations in public orests are carried out by IFS orest
workers as well as private entrepreneurs. Until recently elling
operations inside the IFS were mostly carried out with chain-
saws and orwarding o the timber usually with tractors. Thin-
nings inside the regional aorestation projects are carried out
by the landowners themselves or private entrepreneurs. Con-
tractors mainly use chainsaws themselves but one contractorpurchased a harvester recently.
1.2. Development of timber harvest innext decades
laur Eggertsson and Arnr Snorrason (2006) estimated grow-
ing stock o and stem volume removals rom plantation orests
or the next 100 years based on seedling production statistics
and growth measurements. For each o the most common
planted tree species they assumed certain removal rates or
rst and second thinnings and certain rotation periods (Table
1).
Tree species
First thinning Second thinningClear cut age
(yrs.)MAI (m3/ha*a)Removal
age (yrs.)
Removal
rate (%)
Removal
age (yrs.)
Removal
rate (%)
Larix sibirica 25 60 40 35 91 3.3
Pinus contorta 25 35 40 35 91 3.2
Picea sitchensis 35 40 50 35 91 4.3
Picea spp. 40 35 60 30 91 2.1
Betula pubescens 25 35 45 35 101 1.4Populus trichocarpa 20 35 40 35 61 8.2
Table 1. Assumed stem volume removal rates and clear cut ages
or eight most common tree species in Iceland (changed aterEggertsson and Snorrason, 2006). Removal rate in relation to total
stem volume; MAI = mean annual increment.
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Thus they predicted that annual removals should amount
to app. 13,500 m3 in 2007, 30,000 m3 in 2025, 200,000 m3 in
2050 and 500,000 m3 in 2100 (Fig. 1). Actual annual removals,
though, have been much lower than predicted. The amount
o timber sold rom orests owned by the IFS has been about
1,000 m3 in 2008 (rstur Eysteinsson, written communication).
Adding unsold timber and timber rom orests outside the IFS
this number can be roughly doubled (personal estimation). Al-
though Eggertssons and Snorrasons (2006) estimations are
based on simpliying assumptions, e.g. that thinnings have no
eect on growing stock or that 20 % o all plantation orests
will be protected or inaccessible, they show two important
trends. Firstly, that timber stock will increase rapidly in the next
decades requiring an expansion o annually thinned orest area
and secondly, that orests in Iceland today are heavily under-
thinned (comparing predicted annual removals o 13,000 m3
with actual removals o about 2,000 m3).
1.3. The harvester used in the thinning
Gujn Helgi lasson, owner o orestry rm Grni Drekinn
eh (GD), based in south Iceland, acquired the harvester A91 o
Swiss producer Menzi Muck in 2006 (Fig. 2). The A91 is a walk-
ing harvester, meaning that its wheels are on legs that can be
controlled separately, making it able to step over ditches and
work in gradients in excess o 45 inclination (Menzi Muck Ltd,
2008). The range o the crane is 9 m. The elling head (Woody
H50 o Austrian producer Konrad Forsttechnik Ltd) can ell treesup to a diameter o 65 cm and delimb trees rom 7 to 50 cm
diameter. The eed rate is up to 4 m/s and sawing speed is 40
m/s. Harvester and elling head cost 26 mil. ISK at the time (con-
verted 300,000 , exchange rate rom 10/2006 when harvester
was purchased). The harvester can also be used in construction
work. Suurlandsskgar (South Iceland Aorestation Project)
bought a planting head rom the Swedish company Brcke or
6 mil. ISK (app. 70,000 ). Gujn was given a practical training
over some days by the manuacturer in how to use the har-
vester. Technical data or the A91 is shown in Table 2.
John Deere diesel engine 4 cyl-
inders 104 Kw / 140 PS
Governed to 2,000 rpm
Displacement 4,500 ccm
Electrical system 24 V Battery capacity 2 x 95 Ah
Starter 7.2 kW
Maintenance intervals 500 h
Diesel uel tank capacity 130 + 200 l
Hydraulic system Soziales Load Sensing
Working hydraulics 220 l/min.
Driving hydraulics 160 l/min.
Powerline 170 l/min.
Swivelling speed up to 10 t/min.
Fig. 1. Predicted annual stem volume removals rom plantation orests in Iceland 2007-2100 (in m3). Image source: Eg-
gertsson and Snorrason (2006).
Table 2. Basic technical data or harvester Menzi Muck A 91.
Data source: Menzi Muck Ltd, 2008.
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2. Methods2.1. Thinned larch stands
The harvester was used in the thinning o two larch stands in
Hallormsstaaskgur in east Iceland. The rst stand was 48 year
old Siberian larch (Larix sibirica) and will be called Haurs rom
now on (Fig.3). The second stand consisted o 41 year old Rus-
sian larch (Larix sukachewii) and will be called Mjanes rom
now on (Fig. 4). Additional stand inormation based on mea-
surements made by Annukka Pesonen and Hanna Parviainen
during an inventory o larch in Hallormsstaaskgur in 2006
is shown in Table 3 (Pesonen, written communication; called
Finnish measurements rom now on).
1 For Mjanes: most o stand 195-3 (excluding unthinned area);
or Haurs: sum o three adjacent stands (304-7, 304-7A and
304-8).
2.2. Measurements
In order to establish the amount o timber harvested in both
stands the measurements during this study (made in April
2008) were compared to the Finnish measurements (made
in late summer 2006). Thereore the plot measurements o
Pesonen and Parviainen were retrieved (Pesonen, written com-
munication). The Finnish dataset consisted o six sample plots
in Haurs and our plots in Mjanes. All trees inside a plot were
counted and their diameter at breast height was measured.
The diameters were used to calculate the mean basal area. The
tree whose basal area was closest to the mean basal area was
dened as mean tree. The height o the mean tree was mea-
sured. During this study the same amount o plots were cho-
sen randomly in both stands and identical measurements were
carried out. The volume o the mean tree was calculated using
a model by Norrby (1990):
V = e-2.5079 * d1.7574 * h0.9808 (1)
The volume o each mean tree was multiplied with the tree
number o the plot. The sum o all plot volumes was divided by
the number o plots and multiplied with 100 and resulted thus
in the volume per hectare.
Since one growing season (2007) had passed since both the
Finnish measurements (late summer 2006) and the thinnings
(March 2007) had taken place, the preceding years volume in-
crement was established. Thereore each plots mean tree was
Fig. 2. A Menzi Muck A91 harvester at work. Image source: Menzi Muck Ltd, 2008.
Planting yr Area1 N/ha BHD Height
Mjanes 1966 1.37 2625 15.9 9.2
Haurs 1959 2.10 1030 21.8 13.0
Table 3. Stand inormation or two larch stands in Hal-
lormsstaaskgur based on Finnish measurements (Pesonen,
written communication).
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cored and its height increment during 2007 measured. Diam-
eter and height beore the 2007 growing season were used to
calculate last years stand volume (using the same procedure
described above). The harvested timber volume per hectare
was calculated thus:
Vyield
= V2007
(V2008
+ Increment2007
) (2)
The stand in Mjanes covers 1.67 ha, but the harvester did not
nish thinning the entire stand. The remaining area was tracked
with a GPS and subtracted rom the stand area. The area in Ha-
urs consisted o three stands: 304-7, 304-7A and 304-8. There,
however, the state orest service had elled 171 trees beore theharvester arrived. Their volume was subtracted rom calcula-
tion 2 or Haurs. Regarding the working hours there was a dis-
crepancy between the working diary o the harvester and the
hours the harvester operator reported in the end, latter were
also the basis or his payment. The volume per hour was calcu-
lated with the numbers rom the working diary, since only they
could be attributed separately to each stand. The yielded vol-
ume per stand was divided by the working hours and shown
as unction o tree volume. This unction then was compared to
a tree volume yield volume per hour relationship or motormanual harvest o larch (Heiarsson and Jnsson, 2004). Ater-
wards the harvesting costs per m3 were calculated using both
total costs (including transport o the machine rom south to
east Iceland and back) and pure harvesting costs. Neither costs
included taxes.
3. Results3.1 Productivity
In Mjanes the mean tree volume beore thinning was 94 l,
in Haurs it was 205 l. The harvester worked or 58 hours in
Mjanes and thinned 1.28 ha o larch orest. This resulted in
timber volume o 1.1 m3
per hour or 66 m3
in total. In Haurs itworked or 29 hours, thinned 2.1 ha and yielded a total timber
volume o 135 m3 (4.7 m3 per hour). This means that it processed
about twice as many o the larger trees per hour (23) than o
the smaller ones (12). Compared to thinning with a chainsaw
the harvester worked a bit aster than one orest worker with a
chainsaw in the younger orest and 2.7 times as ast in the older
orest (Fig. 5).
Fig. 3. Aerial map o Siberian larch stand in Haurs (courtesy o IFS) and view o the orest.
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Fig. 4. Aerial map o Russian larch stand in Mjanes (courtesy o
IFS) and view o the orest.Fig. 5. Comparison o productivity or diferent tree sizes between a
harvester (mechanized) and a orest worker (motor manual) with
a chainsaw in larch stands.
3.2 Costs
GD was paid 10,000 ISK per working hour amounting to
750,000 ISK or 75 hours o work. The harvesters working di-
ary, however, showed 87 working hours. Hence the actual work
hourly rate was only 8,620 ISK. Two thirds o the 87 hours were
spent in Mjanes. There the elling o one m3 timber cost 7,600ISK. In Haurs the elling o one m3 timber cost only 1,850 ISK.
Compared to a orest worker, the thinning in the smaller stand
was twice as expensive when done by the harvester. For the
larger trees the harvester was 20 % cheaper per m3 than a or-
est worker (Fig. 6). When adding the transport costs o 150,000
Fig. 6. Comparison between harvesting costs per m3 as unction o
tree size or a harvester and orest worker with chainsaw (calcu-
lated with 8,620 ISK/work hour or the harvester, without transpor-
tation costs).
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ISK or the harvester the costs per work hour increase by about
20 % thus making it two and a hal times as expensive as a or-
est worker or the smaller trees, but still slightly less expensive
than a orest worker or the trees with a stem volume o 0.2 m3
(results not shown).
4. Discussion4.1 Comparison of productivityThe harvester elled only hal as many small as large trees per
time unit. The reason or this was that the harvester opera-
tor had problems reaching the trees in Mjanes because the
stand was much denser than the one in Haurs, where he had
no problems (Gujn Helgi lasson, oral communication).
It takes an operator about 500 to 1,000 working hours to be
able to operate a wheeled or tracked harvester eciently and
even more to operate a walking harvester due to the compli-
cated driving motions (J. N. Stamper, written communication).
Thereore it is debatable whether the relationships in thinning
productivity and costs or small trees between harvester and
orest worker should be generalized. A time study o tracked
harvesters (which are also specialized in dicult conditions)
with experienced operators in Austria gives a scope o per time
productivity (K. Stamper, 2001). The productivity (harvested m3
per working hour including breaks up to 15 min) o the small
tracked Harvester MHT Robin or a tree size o 0.1 m3 was 5.4
m3, or a tree size o 0.2 m3 it was 6.9 m3. The medium sized
tracked harvester Neuson 11002 HV had a productivity o 5.3
m3 and 8.3 m3 or comparable tree sizes, respectively. The com-
parison with the present study (Fig. 7) shows the ollowing: in
the Austrian study the tracked harvesters were about 1.5 times
as productive or the bigger sized trees but ve times as pro-
ductive or the smaller sized trees. There are some restrictions
comparing the Austrian results with this study, above all the
comparison between tracked harvesters and walking harvest-
ers and dierences in data collection. The comparison never-
theless shows the impact the inexperience o the operator had
on productivity and indicates that this impact increased with
the diculty o the working conditions. This trend is conrmedby the comparison with another Austrian time study (Frick et
al.) which analysed the productivity o the walking harvester
Menzi Muck A71. This harvester is a smaller version o the Men-
zi Muck A91. For a tree size o 0.1 m3 this harvester had a pro-
ductivity o 5.5 m3 or ve times as much as the A91 in this study.
For a tree size o 0.2 m3 it had a productivity o 14 m3 or three
times as high as this studys.
4.2 Comparison of costs
In the stand with larger trees, the harvester was slightly cheap-
er than a orest worker. This is partly due to the low work hour
costs assessed by GD. 10,000 ISK per hour is too low to be sus-
tainable (lasson, oral communication). This would become
even more evident, i the high nancial costs caused by the
purchase o the harvester were taken into account and interest
charges were calculated with the actual base rate in Iceland
(18%, January 2008). Additionally there are numerous variable
costs: repair, maintenance, uel, lubricants, transportation etc.
The harvester operator subsequently charged 13,000 ISK (las-
son, oral communication). When comparing thinning costs per
m3 between motor manual and highly mechanized method
using 13,000 ISK as hourly rate it becomes apparent, that the
harvester is also more expensive than a orest worker with a
chainsaw in stands with a mean tree size o 200 l (Fig. 8).Fig. 7. Productivity o harvesters rom diferent studies.
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GD is based in Hverageri, south Iceland. The two stands in
Hallormsstaaskgur, east Iceland, are about 650 km travel dis-
tance away. Thus, tranportation becomes a signicant cost ac-
tor. Gujn calculated that, would he have bought the trans-
portation rom a transport company he would have paid about
380,000 ISK (without tax). He transported the harvester himsel
and charged only 150,000 ISK. A great share o older plantation
orests, i.e. the ones due or thinning, are situated in north and
east Iceland (Traustason and Snorrason, 2008), thus over 500
km away rom south Iceland, GDs base. Thereore only larger
sized biddings are protable or the harvester operator, who
estimates a minimum stand size o 10 ha or a protable assign-
ment (lasson, oral communication).
Costs and benets o thinning with a harvester in Iceland de-
pend very much on the skills o the operator. One other ac-
tor, though, has not been taken into account yet: the question
whether the harvester used is the right one or Icelandic cir-
cumstances. Thereto only one remark: the Menzi Muck A91 is aharvester custom built or extremely dicult circumstances, i.e.
areas with dicult access and very steep slopes. It is according-
ly expensive and the high nancial costs have to be recouped
by many working hours. Most o Icelands economic orests are
neither very hard to access nor very steep. Thereore a normal
wheeled harvester might be a viable alternative given a su-
cient work load. Recalling statements made in chapter 1.2.
a sucient work load or a harvester is currently not given in
Iceland. Although the annual amount o stem volume due or
thinnings is somewhere between 10,000 and 20,000 m3 (ac-
cording to Eggertsson and Snorrason, 2006), commissioned
removals are around 2,000 m3 (Eysteinnsson, written commu-
nication and personal estimation). On the o chance that the
harvester was given all commissioned thinnings, 2,000 m3 still
would be ar rom using it to capacity. Restrictively it has to be
added that a good deal o the orests that are thinned today are
small and scattered over the country so that allocation costs
or a harvester would be very high. Hence, another possibility
would be an attachment or an already existing tractor/excava-tor which would cause less nancial costs. This option puts less
nancial pressure on the owner since the costs are much lower
and the tractor/excavator can be used otherwise when there is
no thinning work.
4.3 Damages
All statements regarding costs made above only account or
instant prot. By including uture prots in the calculation,
any changes to the value o the remaining stand have to be
included. The value o the remaining stand can be reduced i it
is severely damaged during thinnings. I it is used in the right
way and under the right circumstances the use o a harvester
does not cause extensive damages to the remaining orest. E.g.
controls the harvester head the tree ater elling and can thus
restrict elling damages to a minimum. And i the harvester
Fig. 9. Tree in Haurs damaged by driving.
Fig. 8. Comparison between harvesting costs per m3 as unction o
tree size or a harvester and orest worker with chainsaw (calcu-
lated with 13,000 ISK/hour or the harvester without transporta-
tion costs).
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stays on previously appointed strip roads driving damages to
the remaining stand can be minimized. Thus compression o
soil would also be restricted to certain areas, which are (theo-
retically) not part o the production area. No elling and driving
damages are achieved only i the harvester is operated by an
experienced operator. I operated by an inexperienced opera-
tor, though, damages to the remaining stand are likely to be
more severe than in motor manual orest work (Fig. 9). When
the harvester leaves appointed strip roads its weight o 10
tons compresses the soil (Fig. 10). Whether soil compression
by heavy machines in Icelandic orests is permanent has not
been researched, yet. Damage to orest soils is worsened i the
harvester is used in wet conditions.
5. EpilogueToday (January 2009), two and a hal years ater the purchase
o the harvester and almost two years ater the thinnings re-
searched in this study took place, there are new developments
regarding the harvester and its use.
First o all did the operator Gujn Helgi lasson o course
gain experience in the use o the harvester. Consequently
there are less damages to remaining trees during work (Bvar
Gumundsson, oral commmunication). Furthermore did pro-
ductivity increase signicantly. In the right circumstances, i.e.
easy terrain and without breaks caused by mechanical pro-
blems, Gujn can thin up to roughly 10 m3/h (lasson, oral
communication). Productivity is still very dissimilar and de-
creased by dicult conditions such as slopes, very branchy
stands or windbreakage.
GD went on to charge 13.000 ISK per hour thinnings orests,
which was higher than the rate used in the thinnings in Hal-
lormsstaur. He calculated that this rate was sustainable given
a sucient workload. In central Europe harvesters work be-
tween 1500 and 2000 hours, in individual cases up to 3000
hours (Prll, 2005). In Scandinavia harvesters are sometimes runin shits and in this case machine hours are even higher. The
Fig. 10. Tracks o harvester going in three directions (to let, right and in center) in Haurs.
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high work loads are necessary in order to divide the high nan-in order to divide the high nan-
cial costs caused by the acquisition o the harvester among as
many machine hours as possible. Thus the nancial costs share
o total costs can be lowered and losses reduced or prots in-
creased. The impact o high acquisition costs increases with
increasing interest rates, a act that is especially noteworthy as
interest rates in Iceland today have reached a historical height.
GD owned the harvester or two and a hal years and was ableto obtain thinnings or only about 450-470 hours (about 200
hours/year). Moreover the complementary use o the harvester
in plantings did not work out as planned, because the plan-
ting head purchased by Suurlandsskgar did not work as in-urlandsskgar did not work as in-
tended. When planting on old elds or drained wetlands the
planting head was not able to put the plants deep enough and
was thereore not used anymore (Bvar Gumundsson, oral
commmunication). GD used the harvester in digging opera-
tions but alltogether it reached only 750 machine hours ater
its purchase.
Because o the lack o contracts GD has decided to sell the har-to sell the har-vester abroad. Had there been enough work, Gujn would
have kept it.
Christoph Woll and Lotur Jnsson
February 2009
6. ReerencesAradttir, .L. and Eysteinsson Th. (2005). Restoration o birch woodlands in Iceland. In: Restoration o boreal and temperate or-ests (Stantur, J.A. and Madsen P. eds.), pp. 195-209. CRC Press, Boca Raton.
Arnalds, A. (1987). Ecosystem disturbance in Iceland. Arctic Alpine Research 19: 508-513
Blndal, S. and Gunnarsson, S.B. (1999). slandsskgar - Hundra ra saga. Ml og mynd, Reykjavk. In Icelandic.
Eggertsson, . Written communication
Eggertsson, . and Snorrason A. (2006). Forecasting o growing stock and the removals in plantation orests during the next
100 years in Iceland . The Northern Woodheat symposium, August 21-23 2006, Hallormsstadur , Iceland. 15.
Eysteinsson, . Written communication.
Eysteinsson, Thrstur (2009). Forestry in a treeless land 2009. Updated rom: Lustgrden 2004: 27-34.Frick, J., Glatz, M., Sturm R. Maturaprojekt aus Arbeitstechnik und Arbeitslehre. Zeitstudie einer vollmechanisierten Durchorstung
mit einem Universalharvester Menzi Muck A71 und Woody H50.
Gumundsson, Bvar. Oral communication
Gunnarsson, K. S., Eysteinsson, Th., Curl, S., Thornnsson, Th. (2005). Iceland. In: Acta Silv. Hung. Special Edition, pp. 335-346.
Heiarsson, L. Written communication.
Heiarsson, L. and Jnsson, L. . (2004). kvisvinna vi grisjun lerkiskgum. Rit Mgilsr Rannsknastvar Skgrktar, Nr.
18.
Norrby, M. (1990). Volum- och ormtalsunktioner r Larix sukaczewii och Larix sibirica p Island. Institutionen r skogssktsel.
Sveriges lantbruksuniversitet. Examensarbete i mnet skogssktsel. 35 p. (In Swedish).
lasson, G. H. Oral communication
Pesonen, A. Written communication
Prll, W. (2005): Harvestereinsatz steigt. Forstzeitung 116. Jg, 12, Arbeit im Wald IV-V
Stamper, J. N. Written communication
Stamper, K. (2001). Harvester Leistungsdaten. FPP-Schritenreihe, Kooperationsabkommen Forst-Platte-Papier, Wien.
Traustason, B. and Snorrason, A. (2008). Str skglendis slandi byggt CORINE fokkun
Wll, C. (2008). Treeline o mountain birch (Betula pubescens Ehrh.) in Iceland and its relationship to temperature. Technical Uni-
versity Dresden, Department o Forestry, diploma thesis in Forest Botany.
http://www.menzimuck.com/en/produktegruppe/orst.html
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European Union
European Regional Development Fund